Resuscitator control means



Jan. 2, 1951 Filed May 2G, 1946 LE ROY G. AFox REsUscITA'roR CONTROL MEANS `3 Sheets-Sheet 1 Jan. 2, 1951 LE ROY G. FOX

REsuscITAToR CONTROL MEANS Fiied May 2o, 1946 3 Sheets-Sheet 2 Lf Por 6: fbx

Jan. 2, 1951 LE: ROY G. Fox 2,536,435

REsUscITAToR oNTRoL MEANS Filed May 2G, 1946 3 Sheets-Sheet 3 C llllllllllllllll m ao Mg. @A wf H Patented Jan. 2, 1951 RESUSCI'TATR` CNTROL MEANS Le Roy G. Fox, Glendale, Calif., assigner to E & J Manufacturing Company, a corporation of California Application May 20, 1946, Serial No. 671,026

14 Claims. (Cl. 137-453) This invention relates to improvements in mechanical resuscitators of the pulmoinetric type such for example as shown in my United States Letters Patent No. 2,376,348 issued May 22, 1945, and more particularly pertains to an improved pressure responsive means for controlling the operation of such resuscitators and in fact, any other similar mechanism where a valve means is adapted to be operated by Ireans of a pressure responsive diaphragm or the like.

It has been the practice in this art to operate the pressure-controlled valve means through the medium of a spring loaded toggle mechanism or the like which is connected with and actuated by a pressure responsive diaphragm, bellows or like device. These arrangements entail the use of a plurality of pivotally connected and pivotally mounted spring-loaded links and levers which have considerable lost motion and frequently get out of line and bind or stick and fail to properly open and close the valve means with a certainty and reliability which is most essential to a safe and effective resuscitation operation. Failure of such operating means in this manner may cause loss of life in treating critical asphyxie. cases. Moreover, these toggle and link connections are relatively complicated, difcult to assemble, require use of a great number of moving parts which are operated under the spring load and take up considerable room.

It is therefore an important object of this invention tc provide a simple, small and compact means of operative connection between a pressure responsive diaphragm and a control valve, which means consist of comparatively few parts, is free of the uncertainty of operation and obections which are characteristic of the toggle and link mechanisms heretofore employed, and makes it possible to use a simple form of valve with such valve and said means making a much more compact and dependable unit than heretofore provided.

A further object is to provide a control valve actuating means such as described which aords the advantages hereinbefore noted by reason or the fact that it includes a leaf spring cn which the valve is mounted and which'is constructed and arranged so that the valve will be opened and closed in a positive manner with a snap ac tion upon the flexing of the spring past center when the diaphragm responds to dierential pressures developed in the resuscitator.

A further object is to provide a valve mechanism in which the valve member is located at a point centrally of the ends of the over-center leaf spring on which the valve member is supported, in order that the center thrust of said spring will pass in a straight line through the axis of the valve member and therefore eliminate angular thrusts on and consequent binding or sticking of the valve member.

With the foregoing objects in view, together with such other objects and advantages as may subsequently appear, the invention resides in the parts and in the combination, construction and arrangement of parts hereinafter described and claimed, and illustrated by way of example in the accompanying drawing, in which Fig. l is a fragmentary elevational view of the resuscitator mechanism embodying the present invention, l Y

Fig. 2 is an enlarged fragmentaryhorizontal :sectional view taken on the line 2-2 of Fig. l,

Fig. 3 is an enlarged detailed cross section taken on line 3--3 of Fig. 2,

Fig. 4 is a sectional view taken on the line 4 4 of Fig. 2 showing the operating means of this invention and the valve as when the resuscitator is operating on the inspiratory cycle, the valve being then closed,

Fig. 5 is a part sectional part elevational view with parts broken away so as to show the over center springs just before passing over center, the valve being shown as still closed,

Fig. 6 is a fragmentary parts sectional parts elevational view corresponding to Fig. 5 but showing the valve operating means and valve in the position assumed when the resuscitator is operating on expiratory cycle, the valve being then opened,

Fig. 7 is a part elevational part sectional view corresponding to Fig. 6 showing the valve operating means and valve as when the parts thereof have commenced to move towards the Fig. el position.

As shown in the accompanying drawing the present invention is er'zbodied in a resuscitator which generally includes a mask A adapted to be applied over the face of a patient, a resuscita 'tor unit B supported on the mask for supplying gas to and withdrawing gas from lungs of the lpatient through said mask, and a ilexible gas supply line C connecting the unit B with a source of supply of gas under pressure indicated as D.

A pressure regulator E and pressure gage F are connected in the line C while a valve G in said line adiacent the unit B provides for control of the operation of the resuscitator.

Carried by the resuscitator unit B is a muffler H, a vacuum relief check valve J and a pressure relief check valve K which respectively muiiles the noise of gas discharging into the atmosphere, prevents a dangerous sub-atmospheric pressure from being developed and likewise prevents a dangerous positive pressure from being developed.

The resuscitator unit B includes a small cylindrical housing 8 closed at one end by means of a wall in which a port Sa affords communication of the housing with the mask through a nipple Sb carried on the mask and fitted in the port 9a so as to support the housing on the mask` The other end. of the housing is closed by means of a ilanged cap I@ into the internally threaded iiange of which an annular frame member li is screwed. This frame member in cooperation with a spacer ring l2 grips the peripheral portion of a diaphragm I3 so as to hold the diaphragm in the cap. Openings It in the cap expose one side of theV diaphragm to atmospheric pressure.

The annular member II is in part circumferentially spaced Vfrom the flange of the cap and defines an annuar space which receives in close fit a reduced portion 8 of the upper end of the cylindrical wall of the housing when the kcap and housing are fitted together, thus providing a fluid tight .lap-joint.

A venturi or jet pump unit P carried by the member I within the housing, includes a tubular member or conduit I5 which is formed integral with the annular member II and extends across the housing with its ends in close fit with the cylindrical wall of the housing around openings It' and il. These openings are diametrically opposite one another in the cylindrical wall ofA the housing and register with the ends of the passage through the jet pump conduit I5 as. shown in Figs. 2 and 4.

A fitting I8 connected with the valve G is extended through the opening It in the housing and screwed into one end of the jet pump conduit I5 for connecting the exible gas line C thereto. A similar tting IS on the mufer I-I is extended through opening Il in the housing and screwed into the other end of the jet pump conduit. The fittings I 8 and I9 secure the housing 8 to the conduit I5 and as the latter is formed integral with the annular frame member II screwed into the cap I5, the housing and cap are therefore secured to one another in a fluid tight joint.

Arranged in the passage of jet pump conduit I5 is a jet pump means which includes coaxial Vnozzles 2G and 2i and associated constriction throats 29a and 2Ia as well as associated ports h and 2lb. The port 2lb is formed in the jet pump conduit I5 and aords communication of the latter with the chamber provided interiorly of the housing. At this point it should be noted that the opening I5 in the housing Ytogether with the tting I8 and adjacent end ofthe bore of the conduit constitute an intake port means for directing gas under pressure through the jet pump nozzles, whereas the other end of the bore of the conduit I5 together with the fitting i9 and the muiiier H constitute a discharge port means for discharging into the atmosphere the gas which passes through the conduit when the pump means is operated to create a pumping action at which time the port 2lb serves as a suction port. When, however, the pump means is inoperative as a pump, the port 2lb serves as a delivery port for introducing gas under pressure into the interior of the housing, whence it will be directed through the mask port means 4 including the nippleV 9b, then through the mask into the lungs of the patient.

rlhe present invention deals particularly with valve means inclusive of the operating means therefor which in one operation is closed and shuts off the flow of gas through the jet pump conduit i5 to the atmosphere through the muiiier and thereby causes pressure fluid to flow throughV the ports Zlib and 2lb into the housing, thence into the mask for effecting the inspiratory cycle of the mechanism, and in the other instance is opened whereby gas will flow through the jet pump conduit to atmosphere and operate the jet pump means to create a sub-atmospheric pressure effective through ports 25?) and 2lb for withdrawing gas from the lungs of the patient, thereby operating the machine on the expiratory cycle.

As here provided the control of the resuscitator in the manner next above described is effected by means of a single valve '23 of the plunger type operating in a transverse opening 2s formed in the conduit i5 at a point between the jet pump nozzes (port 2Ib) and the atmospheric discharge end (muiiier H) of the conduit. In the present instance this valve is located approximately centrally of the ends of said conduit.

The operation of the valve 23 responsive to movement of the diaphragm I3 is effected through the medium of a novel snap-action operating means which includes a leaf spring 25 supporting the valve 25 and arranged to be flexed past center to open the valve when directly contacted by the diaphragm-moving in one direction; a similar leaf spring 25 connected by means of a yoke link 2i with the diaphragm; and an abutment member 28 arranged on said link to contact the spring 25 and ex it past center in the opposite direction so as to open the valve responsive to movement of the diaphragm in the opposite direction. In this arrangement, the leaf spring 25 is stronger than the valve supporting spring 25 and augmente the snap-action in a particularly effective manner inasmuch as it will be iiexed responsive to all movements of the diaphragm.

At a point approximately centrally of its ends, thev valve-supporting spring 25 has the valve 23 somewhat loosely secured thereto by means of a suitable fastening 29 whereby the valveY is universally movable relative to the spring and will move freely in the opening 24 therefor without sticking or binding. Extending across the annular member II in spaced parallel relation to the conduit I5, the spring 25 has its ends fitted in slots 38 provided intermediate the endscf leaf spring keepers 3I which latter are fastened as at'32 at their ends to the member ii. These keepers have their mid-portions spaced from the member II and support the spring 25 in a normally bowed and past center position subject to being reversely bowed, or in other words, flexed past center in either direction.

The leaf spring 25 is supported in spaced parallel relation to the conduit I5 between the latter and the wall 9 of the housing so that it is normally bowed and subject to being flexed past center in either direction.y `It has oneend hooked into a notched lug 33 on the conduit I5 and its other end supported by a rebent spring keeper ifi likewise fixed to the conduit i5. This rebent keeper like the spring keepers 3| for the spring 2.5 will yield soV as to allow the spring 25 to eX past center in either direction and it may be bent to vary the tension of the spring 26.

The yoke link 21 is U-shaped and loosely pivoted between its ends as at 34' to the center of the spring 26 so that it will straddle the conduit I5 in spaced relation to the sides thereof. The free ends of the link 21 are pivoted to ears 35 fixed to a disk 36 secured to the center of the diaphragm.

The abutment member 28 is in the form of a sleeve slidable on one of the arms of the link 21 but iixed thereon by means of a set screw 31 so that it will remain in a position in which it will contact and flex the spring 25 as aforesaid. In assembling this mechanism the member 28 is moved to a predetermined position in consideration of the desired timing of the mechanism and then set by tightening the set screw 31. The rebent spring keeper 34 is also subject to being bent at this time to provide the desired tension and action of the spring 26 in consideration of the desired timing of thisI mechanism.

Operation f With the valve 23 closed as shown in Figs. 2, 3, and 4 the resuscitator is ready for the inspiratory phase of its operation in which gas under pressure from the source D passes through line C into the conduit l5 but is shut-off from discharging past the closed valve and therefore ows out through ports 20b and 2Ib into the housing 8,

thence through the fitting 9b, mask A and into the lungs of the patient. At this time the diaphragm I3 and springs 25 and 26 are bowed inwardly or downwardly as the case may be, past center and hold the valve 23 closed, the spring 25 then resting on the outer-or upper side of Jrhe conduit which acts as a stop. It should be noted that the passage through the constriction throat 2 la through which the valve passes when closed, is positively closed whereby all gas entering the conduit will discharge through the port 2 Ib into the housing and thence to the patient as aforesaid.

When the gas pressure in the lungs of the patient reaches, say approximately 4 ounces (13 mm.

of hg.) during this inspiratory phase, the pressure becomes effective against the diaphragm I3 so as to bow it outwardly against the top of the cap for opening the valve 23. Upon the initial outward bowing oi the diaphragm the spring 26 flexes to near dead center position shown in Fig. 5 about the time the member 28 contacts and commences to flex the valve-carrving'spring 25, so that as the outward bowing of the diaphragm continues, said member 28 continues to ex the spring 25, and, before the diaphragm has completed its outward bowing movement. the springs 25 and 26 will have moved with a snap-action past center, at which time the valve 23 is also moved with a snap-action into the open position shown in Fig. 6. It will be seen that inasmuch as the valve-carrying spring 25 is not connected with the diaphragm and when closed as shown in Fig. 4 is spaced inwardly from contact with the diaphragm, and becomes further spaced therefrom as shown in Fig. 5 incident to the abutment member 28 contacting the spring 25- said valvecarrying spring when once moved past dead center by said member 28 will move away from member 28 with a snap-action into the position shown in Fig. 5. At this time `the spring 25 is spaced from the diaphragm and the abutment member 28, being in about mid-position therebetween. When the spring 25 moves past center under the urge of the member 26, the spring 26 also snaps past dead center and moves the diaphragm into its outermost bowed position with a snap-action in a much more positive manner than would be the case if the pressure `of the fluid was relied upon to complete the movement of the diaphragm. Thus it will be seen that the springs 25 and 26 move past center at approximately the same time and that the spring 26 puts the diaphragm under a spring load and at all times and assures a reliable response thereof with a snap-action under critical predetermined fluid pressures, whereby the valve carrying spring 25 will also operate with a snap-action to assure a quick opening and closing of the valve in properly timed relation to such critical pressures.

The length of the valve 23 in consideration of the length of its stroke is such that spring 25 and spring 26 are well past dead center before the valve opens and closes the bore through the conduit I5 thereby reducing the time of change over from the inspiratory phase to the expiratory phase and vice versa and preventing iiuttering or other improper action of the valve.

As soon as the valve 23 moves into the open position shown in Fig. 5, the gas under pressure flowing into the conduit I5 passes through the nozzles 2I and 22 then to atmosphere through the fitting I9 and muiiler H. This initiates the expiratory phase, wherein the port 2lb becomes a suction port as the venturi or jet pump means P produces a suction action which withdraws gas from the patients lungs and discharges such gas to the atmosphere through tting I9 and muler H together with the gas which creates the pumping action in passing through the conduit. When a negative pressure in the patients lungs and in the housing 8 reaches a value of for example somewhat less than 4 ounces (13 mm. of hg.) or any other similar value deemed to be safe, the diaphragm I3 commences to bow or move inwardly and moves a distance as indicated between Figs. 6 and 'l before the center of the diaphragm i3 contacts the valve carrying spring 25. ln thus moving the diaphragm pulls on the link 21 and causes the spring 26 to ex to a point near a dead center position as shown in Fig. 7, while the valve 23 remains open. Continued movement of the diaphragm causes the spring 25 to flex past center and move the valve 23 with a snap-action into closed position shown in Fig. 4 thus restoring the machine to its inspiratory cycle, the spring 26 being also exed past center substantially simultaneously with the past center movement of spring 25.

As long as the gas underpressure is directed to the resuscitator unit B through line C, said unit will operate cyclically in the manner herebeiore described. l

It is important to note that the thrust of the valve carrying spring 25 as well as that of the diaphragm connected spring 26;y and also the diaphragm passes through the axis of the valve 23 in a straight line to the end that the valve will be positively moved without any angular thrust or operating movement which tends to cause binding or sticking and consequent improper cylical operation of the resuscitator. Moreover the mounting of the valve on a bowed leaf spring as here provided makes it unnecessary to employ spring-loaded toggle mechanisms such as heretofore used and assures that the valve will be properly operated with a very small and compact means which take up but little space, is easy to assemble, consist oi comparatively few moving parts, and is therefore more reliable in operation than mechanisms heretofore used for connecting a valve means 'with 'a pressure-responsive diyapliragm.

' IIt .will now be apparent that the resuscitator control means of the present invention embodies a novel means of operative connection between a pressure-responsive diaphragm, and a reciprocable valve member, for operating said valve member with a snap-action and at all times in a positive manner without likelihood of causing the valve member to bind or stick. Consequently it is to be understood that this means of operative connection, may be employed to advantage in other mechanisms and apparatus in substitution for toggles and like mechanisms which are usual- 'ly employed to connect a pressure-responsive diaphragm to a reciprocablevalve member which is tofbe loperated responsive to the diaphragm.

" While I have shown and described a specific embodiment of my invention, I do not limit myself .to the exact details of construction set forth, and the invention embraces such changes, modications and equivalents of the parts and their Iformation and arrangement as come within the purview of the appended claims.

I claim:

1. In a control means for the purpose described, the combination with a member having a fluid passage, a valve member movable from one to the other of two positions for controlling the flow of fluid in said passage, and a diaphragm movable in opposite directions responsive to fluid pressures applied on opposite sides thereof; of a means of operative connection between said diaphragm and said valve member including a leaf spring to which said valve member is iixed for 4movement responsive to the flexing of the spring in opposite directions; means supporting said spring so that it may be flexed in either direction past dead center; said spring being disposed so that it will be contacted and moved by said diaphragm past center to dispose the valve member with a snap-action into one of its two positions upon the movement ofsaid diaphragm in one direction, and spring actuated means including a second spring connected to said diaphragm and arranged to move therewith into contact with said second mentioned spring for flexing said second mentioned spring with a snap-action past dead center to dispose said valve member in the other of its two positions responsive to movement of said diaphragm in the other direction.

2. In a control means for the purpose described, the combination with a member having a iiuid passage, a valve member movable from one to the other of two positions for controlling the flow of uid in said passage, and a diaphragm movable in opposite directions responsive to fluid pressures applied on opposite sides thereof; of a means of operative connection between said diaphragm and said valve member including a leaf spring toV which said valve member is Xed for movement responsive to the flexing of the spring in opposite directions; means supporting said spring so that it may be iiexed in either direction past dead center; said spring being disposed so that it will be contacted and moved by said diaphragm past center to dispose the valve member with a snap-action into one of its two positions upon the movement of said diaphragm in one direction, and spring actuated means including a leaf spring connected to said diaphragm and arranged to move therewith into contact with said second mentioned leaf spring for flexing said second mentioned leaf spring with a snap-action the-other oi its two positions respo'nsiveto movement of said diaphragm in the other direction, said last named means being free from connection with said second leaf spring and said valve member and disposed to Contact said second spring only when said diaphragmmoves a predetermined extent less than its total movement in said other direction.

3. In a control means for the purpose described, the combination with a member having a ud passage, a valvemember movablefrom one to the other of two positions for controlling the flow of iluid in said passage, and a diaphragm movable in opposite directions responsive to fluid pressures applied on opposite sides thereof; of a means of operative connection between said diaphragm and said valve member including a leaf spring to which said valve member is ixed` for movement responsive to the flexing of the spring in opposite directions; means supporting said springV so that it may be flexed in either directionY past dead center; said spring being disposed so that it will be contacted and. moved by said diaphragm past center to dispose the valte member with a snap-action into one-'o its two positions upon the movement of said vdiaphragm in one direction, a second leaf spring, means supporting said spring in a normally bowed position subject to being reversely bowed, a linl; connecting the second spring with said diaphragm so that said second spring will be flexed and moved past `dead center responsive `to movements of said diaphragm, and an abutment means onV said'link arranged to Contact the'rst named spring and flex it past dead center to more the valve into' the other of its two positions responsive to movement of said diaphragm in the other direction, the said springs acting when static to maintain said valve member in one or the other of its two positions. 4. In a control `means for the purpose described, the combination with a housingin which are contained a member having a iiuid passage, a valve member movable from one .to the other yof two positions from controlling the iiow of fluid in said passage, and a diaphragm'movable in opposite directions responsive to fluid pressure applied on opposite sides thereof; of a means of operative connection between said diaphragm and said valve memberincluding a first spring to which said valve member is Xed for movement responsive to the flexing of the spring. in opposite directions; means for 'supportingsaid spring so that'it is normally bowed and is subject to iiexure past dead center; said spring being disposed so that it lwill be contacted'and moved by said diaphragm past dead'center to dispose the valve member with a snap-action into one of its two positions upon the movement of said diaphragm in one direction,`and 'means including a second spring connected with'said diaphragm ar-` ranged to momentarily moveinto contact with said spring and ileX it past dead center' with a snap-action to disp-ose said valve member in the other of its two positions Yupon predetermined movement of said diaphragm inthe other direction, said second spring being arranged to'supplement the action of said first spring in moving said valve member.

5. In a control means for the purpose described',

the combination with a housing in which are contained a member having a fluid passage, a valve 'member movable from one to the other of two positions for controlling the flow of duid in said passage, and a diaphragm movable in opposite directions responsive to fluid pressures; of

a iirst spring on which said valve is supported, means supporting said spring in a normally bowed and past dead center position in which the valve member is disposed in one of its two positions and the spring is subect to being reverseiy bowed to dispose the valve member in the other of its two positions, said spring and diaphragm being normally spaced apart and constructed and arranged so that when the diaphragm is moved in one direction it will contact and flex said spring past center to dispose said valve member in one of its two positions, and means including a second spring connected to and movable with said diaphragm and normally spaced from said valve member and said spring for momentarily contacting said spring and flexing it past center to dispose said valve member in the other of its two positions, said second spring being arranged to supplement the action of said iirst spring in moving said valve member.

6. In a control means for the purpose described, the combination with a housing in which are con tained a member having a fluid passage, a valve member movable from one to the other of two positions for controlling the flow of fluid in said passage, and a diaphragm movable in opposite directions responsive to nuid pressure; of a leai spring on which said valve is supported, means supporting said spring in a normally bowed and past dead center position in which the valve member is disposed in one of its two positions and the spring is subject to being reversely bowed to dispose the valve member in the other oi its two positions, said spring and diaphragm being normally spaced apart and constructed and arranged so that when the diaphragm is moved in one direction it will contact and iiex said spring past center to dispose said valve member in one of its two positions, a second leal' spring, means supporting the second leaf spring so that it may be moved from one normally bowed position to the other, a link connecting said second spring with said diaphragm in such manner that the second spring will normally bow in the same direction as to nrst named spring, and an abutment member on said link normally spaced from said rst named spring and arranged to contact the iirst named spring and move it past center to dispose the valve member in the other of its two positions when the diaphragm is moved in the other direction.

'7. In a resuscitator, a housing dening a chamber and provided with a port adapted for connection with a mask, a conduit transversing said chamberand having means at one end affording the attachment thereof to a source of gas under pressure and means at the other end providing a discharge port open to the outer atmosphere, jet pump means arranged in said conduit, a side port in said conduit for introducing gas into said chamber during the high pressure phase of operation of the resuscitator and for withdrawing gas from said chamber during the low pressure phase of operation of the resuscitator, a valve member operable for opening and closing the passage through said conduit at a point between said side port and said discharge port, a diaphragm in said housing movable in opposite direction responsive to fluid pressure applied to opposite sides thereof, a leaf spring on which said valve is supported, means supporting said leaf spring for flexing movement past dead center for opening and closing said valve, said spring being normally bowed to hold the valve in one or the other of its two positions and disposed in normally spaced relation to said diaphragm but in such position that the diaphragm in moving in one direction will contact the spring and flex it past dead center to dispose the valve in one of its two positions, and means, including a second spring arranged to move said valve member, connected with the diaphragm and normally unconnected with said spring for exing the spring past dead center to dispose the valve member in the other of its two positions responsive to movement of the diaphragm in the other direction.

3. In a resuscitator, a housing dening a chamber and provided with a port adapted for connection with a mask, a conduit transversing said chamber and having means at one end aioi'ding the attachment thereof to a source of gas under pressure and means at the other end providing a discharge port open to the outer atmosphere, jet pump means arranged in said conduit, a side port in said conduit for introducing gas into said chamber during the high pressure phase of operation of the resuscitator and for withdrawing gas from said chamber during the low pressure phase of operation oi the resuscitator, a valve operable for opening and closing the passage through said conduit at a point between said side port and said discharge port, a diaphragm in said housing movable in opposite direction responsive to fluid pressure applied to opposite sides thereof, a leaf spring on which said valve is supported, means supporting said leaf spring for flexing movement past dead center for opening and closing said valve, said spring being normally bowed to hold the valve in one or the other of its two positions and disposed in normally spaced relation to said diaphragm but in such position that the diaphragm in moving in one direction will contact the spring and flex it past dead center to dispose the valve in one of its two positions, a second leaf spring mounted in said housing so as to be subject to flexure past dead center in either direction, a link connecting said second spring with said diaphragin and a member on said link normally spaced from the rst named spring and adapted to contact and move said first named spring past dead center to dispose the valve in the other oi its two positions when the diaphragm is moved in the other direction.

9. A resuscitator comprising, in combination, a housing defining a gas-receiving chamber, said housing being provided with a port adapted for connection with a mask. conduit means transversing said chamber, said conduit means being fitted at one end for attachment to a source ofv gas under pressure and the other end thereof denn ing a discharge port open to the outer atmos- Y phere, jet pump means mounted within said conduit and comprising a nozzle and constriction, a valve member movable from one to the other of two positions for opening and closing said discharge port, port means `in said conduit com" municating with said chamber, said port means being positioned at a point so that suction is created therethrough when said valve is open, said port means introducing gas from said conduit into said chamber when Said valve is closed and withdrawing gas from said chamber into said conduit when said valve is operi, and means for opening and closing said valve including a diaphragm movable in opposite direction responsive to changes in pressure in said housing, a leaf spring mounted between said diaphragm and said valve so that it is normally bowed past center and subject to be reversely bowed past center, means securing said valve member to said spring so that the valve member will be opened when the spring is flexed past center in one direction and closed when the spring is flexed past center in the other direction; Said diaphragm operating during movement in one direction to contact said spring and iiex it past center to dispose the valve in one of its two positions; and means, including a second spring arranged to move said valve member, connected with said diaphragm operable to contact said spring and'ex it past center to dispose said valve in the other of its two positions responsive to movement of the diaphragm in the opposite direction.

19. A resuscitator comprising, in combination, a housing defining a gas-receiving chamber, said housing being provided with a port adapted for connection with a mask, conduit means transversing said chamber, said conduit means being fitted at one end for attachment to a source of sas under pressure and the other end thereof dening a discharge port open to` the outer atmosphere, jet pump means mounted with said conn duit and comprising a nozzle and constriction, a valve movable into one or the other of two posi-- tions for opening and closing said discharge port, port means in said conduit communicating with said chamber, said port means being positioned at a point so that suction is created therethrough by said jet pump means when said valve is open, said port means introducing gas from said conduit into said chamber when said valve is closed and withdrawing gas from said chamber into said conduit when said valve is open, and means for opening and closing said valve including a diaphragm movable in opposite direction responsive to changes in pressure in said housing a leaf spring mounted between said diaphragm and said valve so that it is normally bowed past center and subject to being reversely bowed past center, means securing said valve to said spring so that the valve will be opened when the spring is flexed past center in one direction and closed when the spring is flexed past center in the other direction; said diaphragm operating during movement in one direction to contact said spring and flex it past centeI4 to dispose the valve in one of its two positions, a second leaf spring mounted in the housing so that it is normally bowed and is subject to being reversely bowed, a link connecting said diaphragm with said second spring so that said second spring is bowed at all times in the same direction as the first named spring, and a member on said link normally spaced from the first named spring and adapted to contact and fieX the first named spring and flex it past center to move the valve into the other of its positions when said second named spring is being fieXed during movement of the diaphragm in the opposite direction. i

1.1. In a fluid pressure operated control means for the purposes described, a member having a iiuid passage therein, a valve membeln for controlling the iiow of fluid from said passage, a nor- 'mally bowed first spring mounted adjacent said rst mentioned member and to which said valve Y member is Xed for movement with a snap action into and out of flow-controlling positions responsive to flexure of said spring into past center positions. and iiuid pressure-responsive means, including alsecond spring arranged to move said valve member, normally out of engagement with said iirst spring and movable in opposite directions for flexing said rst spring into said past center positions.

l2. In a fluid pressureoperated control means for the purposes described, a member .having a fluid passage therein, a valve for controlling the ilow of fluid from said passage, a normally bowed irst spring mounted adjacent said member and to which said Valve is iiXed for movement with a snap action into and out of flow-controlling positions responsive. to ilexure of said springintopast center positions, and fluid pressure-responsive means including elements movable from positions spaced from said spring into positions for .contacting said spring and .flexingit into said past center positions, said last vmentioned .means including a second over center snap action spring arranged to supplement the action of said first spring.

13. In a fluid pressure responsive control means, a member having a fluid passage therein, a Valve member movable into positions for controlling the flow of fiuid from said passage, anlover-fcenter spring means mounted adjacent said member and on which said valve member is mounted for movement into its flow-controlling positions upon flexure of said spring meansY into over-center positions, a pressure-responsive diaphragmlmounted adjacent said member so as to be spaced from Y contact with said spring means when the valve is in at least one ofitsv now-controlling positions, said diaphragm operating when moved inrone direction to contact said spring means and. move it into one of its over-center positions, means connected to the diaphragm and spaced from said spring means when the valve is in at least one of its now-controlling positions, for contacting said spring means and moving it into an overcenter positionv when, the diaphragm isV moved in the opposite direction, and another over-center spring means maintaining said diaphragm Vunder spring load and arranged to supplement theaction of the first mentioned spring in moving said valve member. Y 1

14. In a pressure-responsive flow control means, a valve means, a spring-loaded, uid pressureresponsive element movable .in opposite directions, a bowedfirst spring supporting said valve means and movable in one direction to operate the valve means with a snapaaction responsive to movement of said pressure responsive element in one direction, and means carried by said'pressureresponsive element normally spaced from said leaf Vspring and adapted to Contact and move said leaf spring inthe opposite direction to operate said valve means with a snap action when the pressure responsive element is moved in the opposite direction, said pressure responsive element being spring loaded to supplement the action of said first spring in moving said valve means. l

LE ROY G. FOX.

REFERENCES CITED The following references are of record in the le of this patent:

UNITED STATES PATENTS 

